Edi Barkai
Affiliations: | University of Haifa, Haifa, Haifa District, Israel |
Area:
Olfaction learning and memoryWebsite:
http://brain.haifa.ac.il/HTML/HTMLEng/edi2.htmlGoogle:
"Edi Barkai"Mean distance: 14.76 (cluster 6) | S | N | B | C | P |
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Publications
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Awasthi R, Yuan Q, Barkai E. (2023) Reversing Aging: Decline in Complex Olfactory Learning Can be Rectified by Restoring Intrinsic Plasticity of Hippocampal CA1 Pyramidal Neurons. Advanced Biology. e2300323 |
Ilovich O, Dines M, Paul BK, et al. (2022) Nck1 activity in lateral amygdala regulates long-term fear memory formation. Translational Psychiatry. 12: 475 |
Awasthi R, Chandra N, Barkai E. (2022) Olfactory rule learning-induced enhancement in intrinsic neuronal excitability is maintained by shutdown of the cholinergic M-current. Frontiers in Cellular Neuroscience. 16: 934838 |
Kumar A, Barkai E, Schiller J. (2021) Plasticity of olfactory bulb inputs mediated by dendritic NMDA-spikes in rodent piriform cortex. Elife. 10 |
Paul BK, Barkai E, Lamprecht R. (2021) The role of p21-activated kinase in maintaining the fear learning-induced modulation of excitation/inhibition ratio in lateral amygdala. Neurobiology of Learning and Memory. 107385 |
Ma X, Zhang Y, Wang L, et al. (2020) The firing of theta state related septal cholinergic neurons disrupt hippocampal ripple oscillations via muscarinic receptors. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience |
Kfir A, Awasthi R, Ghosh S, et al. (2020) A Cellular Mechanism of Learning-Induced Enhancement of Synaptic Inhibition: PKC-Dependent Upregulation of KCC2 Activation. Scientific Reports. 10: 962 |
Paul B, Reuveni I, Barkai E, et al. (2019) Learning-induced enduring changes in inhibitory synaptic transmission in lateral amygdala are mediated by p21-activated kinase. Journal of Neurophysiology |
Chandra N, Awasthi R, Ozdogan T, et al. (2019) A Cellular Mechanism Underlying Enhanced Capability for Complex Olfactory Discrimination Learning. Eneuro. 6 |
Kumar A, Schiff O, Barkai E, et al. (2018) NMDA spikes mediate amplification of inputs in the rat piriform cortex. Elife. 7 |